Juice extractor for squeezing the juice from lemons, oranges, and other fruits



l. DAVITCHO JUICE EXTRACTOR FOR SQUEEZI Filed Sept. 6, 1946 LEMONS, ORANGES, AND OTHER FRUITS May 16, 1950 u" WIMP INVENTOR 5AM LLEL I DA V ITCHO ATTORNEY l atenied May 16, 1950 JUICE FROM I OTHER FRUITS LEMONS, ORANGES, AND

Samuel I. Davitcho, MontreaL-Quebec, Canada Application September 6, 1946, Serial No. 695,162

1 Claim. 1

The invention relates to a juice extractor and particularly to a juicer for oranges and lemons.

The customary juice extracting devices consist of an upper cap-shaped pressure element and a conical bottom member. The extraction of the juice is eifected by pressing the squeezing cap downward onto the bottom cone; the latter is frequently fitted with outwardly projecting ribs and located in a juice collecting vessel which is provided with a sieve. The fruit is squeezed between the cap and the conical bottom member and the extracted juice flows through the holes of the sieve to be collected in the storing vessel.

These customary juicers have two main disadvantages. I

They require an excessive squeezing force and have nevertheless a surprising inefliciency; consequently a considerable portion of the juice remains in the fruit and is accordingly wasted. The poor eificiency of these juicers is particularly noticeable in households where often persons lacking in strength, for instance children perform the juice extraction from the fruits.

In order to eliminate these drawbacks juicers have been provided with means to subject the fruit between an upper and a bottom squeezer to rotative frictional pressure.

It is the object of this invention to improve squeezers of this rotational type and, particularly, to impart an oppositely directed rotative motion to both squeezer elements.

Accordingly the invention is embodied in a fruit juice extractor arranged and constructed as thereafter set forth and as illustrated in the accompanying drawing, in which Fig. 1 is a vertical sectional elevation of its one exemplification,

Fig. 2 is a part vertical sectional elevation and part side view of a second exemplification, and

Fig. 3 is a top view of a swingable lever which holds with the upper squeezing cap.

Referring now to Fig. 1, the juice extractor illustrated therein consists of an upper squeezing cap I and a bottom cone 2, which may be provided with external ribs.

The pressure cap I is moved up and down by a swingable lever 3. This lever is rotatably fastened to a stand or post 4 which is supported on base plate 26; this plate and the post 4 form the supporting structure for the juicer.

Lever 3 is provided with a handle 5; a slot 6 is provided in the lever and the upper end I of the cap holding rod 8 is held and guided by this slot. Rod 8 is provided with an outer screw thread 9; a corresponding inner screw thread 20 is applied to the head of arm Ill which latter is also secured to post 4; The two threads are in direct meshing cooperation.

Bottom cone 2 is supported on a rod I3, which extends into a bearing I4, the latter being mounted on base plate 26 which carries post 4. Asieve I2 is located in the juice collecting vessel II attached to post 4. Rod I3 is by means of spring IE5 resiliently supported in bearing I4.

Rod I3 is provided with a circumferential screw thread It and a cooperating inner screw thread 2I is provided in the head portion of arm ll, which is also fastened to stand 4. Screw thread 9 of rod 3 and screw thread I6 of rod I3 are oppositely directed relative to each other.

On top of sieve I2 two cylindrical rollers are I provided which are rotatable on pins 21; the

pins are rigidly connected, for instance welded to bottom cone 2; if the cone rotates the rollers are rotated due to the frictional contact with the surface of the sieve. The dispersion of cellulose particles is greatly increased by the operation of these rollers and the transition of the juice through the sieve perforations is facilitated.

By the above described cooperation of the screw threads 9-, 20 the squeezing cap I is set into a short rotation when the cap is moved downward by the swingable lever 3; as soon as a sufiicient frictional contact is reached between cap I and cone 2 due to compression of the fruit therebetween the cone is rotated by screw threads I6, 2| in an opposite direction to the rotation of squeezing cap I.

The very efllcient operation of the juicer is evident.

The upper portion of the fruit held in cap I and the lower portion thereof located on base cone 2 are rubbed and ground against each other in a manner which is similar to that when a lemon is rubbingly squeezed by hand; the fruit juice is therefore completely extracted.

It is obvious that the instant juicer works fully satisfactory if the bottom cone is stationary and the juice extraction is solely effected by the short rotation of squeezing cap I on cone 2.

However, by the simultaneous rotation of the bottom cone in an opposite sense to that of the cap, the dejuicing time may be still further reduced; moreover, the dispersion of the fruit cellulose is improved in this manner and the operation of the juicer altogether facilitated.

The rollers I8 which are carried by cone 2 in frictional contact with sieve I2 effect a quick and emcient passage of the juice and the cellulose In deviation from Fig. 1 arms In and I1 here omitted; arm I0 is replacedby a tube 22;;

this tube is along slot 6 displaceably suspended lever 3; it accommodates rod 8 which is rotatable by means of outer screw thread 9 of rod 8 and inner screw thread 23 of tube- 22; a compressiom spring 24 is located betweenrod 8, and the upper closed end of tube 22.

The operation of this modification of tlualnven tion is similar to that of; Fig. 1.

The invention is shown in two; modifications; only but it is obvious that other changes in de; tails and arrangementof partsmay belresorte'd, to without departing from the spirit. and scope of the invention as defined in the following, claim.

I claim:

A juice extractor. comprising a supporting structure, a juicecollectingvessel carried by said structure, a bottom cone-inlsaidvessel, an upper squeezing cap vcarried by saidtsupporting structure for pressure coaction withsaid cone, a rod holding said cap, a screw thread at the circumference of said rod, anoarm carried by said sup-- porting structure, an internal screw thread in said arm to coact with the outer screw thread of 4 said rod. a second rod resiliently carried on said supporting structure to rotatably support said cone within said juice collecting vessel, a screw thread at the circumference of said rod, a second arm carried by said structure, an internal screw thread in said second arm to coact with the outer screw thread of said second.rod,,saidscrew thread being: oppositely directed: to the screw thread of said first rod, means to move said cap holding rod in a downward direction towards said cone and to rotate said cap and said cone upon establishm'entof frictional pressure contact in opposite direction asi'eve mounted in said juice collecting vessel and rollers carried by said cone pinifricticnalz contact with the upper surface of said sieve.

SAMUEL I. DAVITCHO.

REFERENCES CITED The followingl references. are of recordin the fileofthis' patent:

UNITED. STATES; PATENTS Number Name Date 8883620 Kissel May'26; 1905' 132665030 Lins May 14, 191s 1362:8515 Deleray- Junefl'O, 1930 1',771;593-" Merzoian July- 295 1930 1,923;7'1-'2- Deitz' Aug.- 22} 1933 lg969',4)06 Herman Aug: 7; 19341 2";l09,653'- S'eurltmli- Mar: 1,- 1938' FOREIGN PATENTS Number: Country: Date 295,395 Italy Apr..20,.l932 

